EP0894607A1 - Drive for twin screw extruder - Google Patents

Abstract

A gear box for driving a twin screw extruder has a first drive shaft (5), esp. driven through reduction gearing, which drives a second drive shaft (6) through two intermediate shafts (7,8) arranged on both sides. The shafts have parallel axes and are housed in a common gear box housing (1). The gear box housing (1) is split into two halves (3,4) along a vertical dividing plane (2) which runs between the centre lines of the two drive shafts (5,6).

Description

The invention relates to a gear for twin screw extruders with a driven by a drive shaft, in particular via a reduction gear first output shaft and one of the first output shaft via two side shafts arranged on both sides driven second output shaft, the shafts parallel to the axis and in a common gear housing are arranged. There are several different types of gearboxes Designs known in the art, with a preferred Design is that the gear housing consists of four housing parts exists, which are fixed to each other via horizontal parting planes. While the middle parting plane is exactly through the axes of the two Drive shafts runs, the upper and lower parting plane extend through the axes of the sideshafts parallel to the middle parting plane. By arranging the gear train between the two output shafts and the side waves in the form of a square, at the corner points the axes of the gear shafts lie, it is possible in itself, the two Output shafts lying horizontally next to each other are infinitely variable in their spacing to change.

However, this gives rise to the problem that these four-part housings due to the constant length of the gear train when changed the center distance between the two output shafts as well the distance between the two side shafts is changed. This would make the Sidewalls migrate from the associated parting line, causing the adjustment and displacement of those passing through the axes of the sideshafts Separation joints required. This in turn means that every new one Center distance between the output shafts an adjustment of all four the two side shafts adjoining housing parts conditionally, that is, for each no matter how small the difference in the center distances, a separate complete housing must be made available.

Proceeding from this, the present invention is based on the object a gearbox for twin screw extruders of the type described above Type to provide a stepless change in wheelbase allows for the same shape of the housing parts and accordingly is greatly simplified in terms of the variety of variants.

This object is achieved in that the housing is divided into two housing halves along a vertical parting plane, and that the parting plane runs between the axes of the two output shafts. Due to the vertical division of the housing into the shaft axes parallel plane, there is the advantage that the gear in simpler Mounted or dismantled by opening the housing can be. This is preferably done by opening one of the output shafts is disengaged from the side shafts and thereby all shafts - although still safely held in their bearings - are freely accessible.

With this form of housing division, the parting line no longer runs due to the shaft axes and therefore the bearing seats cannot be halved divide. Due to the optimal accessibility of the shafts and bearing seats When the housing is open, it is possible to separate the bearing seats from their respective position in the housing only after the housing halves have been made by making them drilled in the housing. The individual shafts are then inserted by plug-in assembly or by inserting the shafts and then pressing the Bearing, so again without the shape of the housing parts or the position of the parting plane on the center distance of the output or Side waves must be taken into account.

This type of bearing seat production would also be the case with horizontal ones Joints of the prior art are theoretically conceivable, but fail the application of this method of gear assembly to the at horizontal housing division existing joining and assembly problems, by not using the side shafts, for example, when the output shafts are fitted are more accessible. Rather, one is with horizontal housing division rely on the fact that all shaft axes each exactly in the associated Separation levels are located, as this is the only way the cast-in bearing seats become accessible and the insertion of the bearings or shafts is made possible becomes.

In the prior art there are already gearboxes with a vertical one Separation plane known; however, this extends perpendicular to the axes the output or side shafts, with up to four housing parts in a row to be ordered. This known design also has the major disadvantage that the waves only for opening the housing or their bearings must be removed from the bearing seats, making access to the gearbox very cumbersome and very difficult is. The initial assembly of the gearbox is correspondingly complicated represents.

The present invention avoids all these disadvantages of the prior art Transmission through the advantageous arrangement of the parting plane. Thereby that the bearing seats only afterwards in the housing in exact adaptation can be introduced to the respective application, the Change the center distance of the output shafts continuously over a larger area, without the need for a new housing or new housing parts would be. So the main advantage of this construction is that over a larger area, each center distance desired by the customer can be realized and here - despite the different Center distance - only these two identical housing halves required become. That means there is no need for different center distances new separate housing parts are made available, but it you only have to re-drill the complete housing.

In addition, even with the different center distances, always the same gear train consisting of the same gear parts be used. Because neither the side shafts nor the output shafts are positioned exactly opposite the parting line and This means that they can be used in almost any way - in compliance with the square gear train - Arranged in the housing, which in turn then the position of the bearing seats is adjusted and these in the Housing to be drilled. In other words, at present invention the same gear train with all its individual parts can therefore be used for many different applications as the Position of the bearing seats is independent of the parting plane.

All of this leads to a large reduction in the number of parts and to one corresponding increase in lot sizes for the individual parts, and thereby overall, significant cost savings.

Furthermore, the present invention can do what is required by the market Center distance spectrum for a specific torque range can be covered continuously by changing the center distances Gear sizes overlap. In addition, one can Gearbox of a large machine with only a low torque requirement smaller gearbox sizes are used, their maximum output torque corresponds to the required torque and an enlarged, has center distance adapted to the large machine, which leads to a corresponding cost reduction leads.

For a complete housing, only two cast models and this is required for a large number of different drive shaft center distances, while in the state of the art four new models for each one desired center distance were required. In the invention Gearboxes with a vertical parting plane are also possible Integrate reduction part in the gearbox housing, so that no separate Housing for the reduction part must be provided more. Consequently the entire complete transmission only needs two models. Only the output lantern must be cast separately, as in the prior art or be produced.

As far as the exact position of the parting plane is concerned, it is recommended that this runs through the bearing seats of the side shafts and in particular but is spaced from the axes of the sideshafts. This gives the advantage that no bearing forces of the output shafts and none Bearing forces of the side shafts act on the parting plane, since all the associated ones Bearing points are held in a form-fitting manner in the housing webs. Furthermore this form fit results in a greatly simplified Manageability of the gearbox, even in the state with the housing open can be rotated or pivoted without an auxiliary device without that bearings or shafts fall out. That means you only have to use the output lantern unscrew and can then open the parting line to the Gearbox.

Finally, it is recommended that the parting plane be parallel to the output shafts is arranged and thus perpendicular to the two output shafts formed level runs. It can also with regard to the manageability of the transmission can be advantageous if the two housing halves are connected to one another in a pivotable or hinged manner, wherein the pivot axis expediently in the area of the lower horizontal, edge of the housing halves located in the parting plane is.

Figur 1

ein Getriebegehäuse eines erfindungsgemäßen Getriebes in Vorderansicht;

Figur 2

das Getriebe aus Figur 1 entsprechend der Schnittebene A-A aus Figur 1; und

Figur 3

das Getriebe entlang der Schnittebene B-B aus Figur 1.

Further features and advantages of the present invention result from the following description of an exemplary embodiment with reference to the drawings; show here

Figure 1

a gear housing of a transmission according to the invention in front view;

Figure 2

the transmission of Figure 1 according to the section plane AA of Figure 1; and

Figure 3

the transmission along the section plane BB from Figure 1.

In Figure 1 is a gear housing 1 of a transmission for twin-screw extruder shown in front view, which along a vertical parting plane 2 is divided into two mirror-image housing halves 3, 4. Approximately in the In the middle of the gearbox are two output shafts 5, 6 side by side arranged horizontally from the front of the housing to the rear - in Figure 1 - extend into the plane of the drawing. From presentation technology For reasons, the output shaft 6 is only indicated by the lines of symmetry and not shown in the drawing.

The parting plane 2 is arranged so that it is exactly between the extends two output shafts. The output shaft shown on the right in FIG. 1 5 drives via two side shafts 7, 8 the one arranged to the left Output shaft 6 on, the two side shafts 7, 8 under or are arranged above the two output shafts. The parting line 2 passes through the associated bearing seats of the side shafts 7, 8, however the axes of the sideshafts are spaced from the parting plane and thus the crossing of the bearing seats in Figure 1 is offset to the right. Due to this asymmetrical division of the bearing seats, the housing can can be disassembled along the parting plane without the two sideshafts 7, 8 or their bearings can fall out of the bearing seats because they are held in a form-fitting manner.

The same applies to the two output shafts 5, 6, which are also from the housing are surrounded and anchored in this form-fitting.

The engagement relationships of the output and side shafts and their arrangement within the housing can be seen in particular from FIGS and 3 recognize. From this it can be seen that the output shaft 5 the housing across its entire depth and on the back End combs with a reduction gear 9, which has a drive shaft 10 is driven. The output shaft 6 extends approximately only to to half the depth of the housing and combs there with the two side shafts 7, 8, which in turn are driven by the output shaft 5. Consequently the drive torque from the drive shaft 10 via the reduction gear 9 transferred to the continuous output shaft 5, which with drives half the torque directly into the extruder, while the rest Torque on the two side shafts (torsion shafts) 7, 8 the short output shaft 6 and is transferred from there into the extruder.

The section along the plane A-A from Figure 2 corresponds exactly to the course the parting line 2, while the section along the plane B-B perpendicular is arranged for this purpose and again the parting plane 2 in its center reveals. In Figures 2 and 3 can also be seen that a modified Output shaft spacing has no influence on the appearance of the housing halves has cast, especially since only the two housing halves and the bearing seats of the output or side shafts only afterwards be drilled. Here the shafts are inserted through Plug-in assembly.

In summary, the present invention has the advantage that that using the same sets of wheels, a two-half Housing used for several different output center distances can be without a special adaptation of the housing shape would be required; in addition, the gearbox comes due the vertical parting plane with only two housing halves, which means the number of parts is further reduced accordingly. Finally is also the handling of the gearbox with the housing open simplified that the shafts or bearings each form-fitting in the bearing seats being held.

Claims (5)

Gear unit for twin-screw extruders with a first output shaft driven by a drive shaft, in particular via a reduction gear, and a second output shaft driven by the first output shaft via two side shafts arranged on both sides, the shafts being arranged parallel to the axis and in a common gear housing.
characterized,
that the housing (1) is divided into two housing halves (3, 4) along a vertical parting plane (2), and that the parting plane runs between the axes of the two output shafts (5, 6). Transmission according to claim 1,
characterized,
that the parting plane (2) runs through the bearing seats of the side shafts (7, 8). Transmission according to claim 2,
characterized,
that the parting plane (2) is spaced from the axes of the side shafts (7, 8). Transmission according to at least one of the preceding claims,
characterized,
that the parting plane (2) is arranged parallel to the output shafts (5, 6). Transmission according to claim 4,
characterized,
that the parting plane (2) is arranged perpendicular to the plane formed by the two output shafts (5, 6).

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